neorv32/sw/lib/source/neorv32_xirq.c

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// # << NEORV32: neorv32_xirq.c - External Interrupt controller HW Driver >>                       #
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// # The NEORV32 Processor - https://github.com/stnolting/neorv32              (c) Stephan Nolting #
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/**********************************************************************//**
 * @file neorv32_xirq.c
 * @brief External Interrupt controller HW driver source file.
 **************************************************************************/

#include "neorv32.h"
#include "neorv32_xirq.h"


/**********************************************************************//**
 * The >private< trap vector look-up table of the XIRQ.
 **************************************************************************/
static uint32_t __neorv32_xirq_vector_lut[32] __attribute__((unused)); // trap handler vector table

// private functions
static void __neorv32_xirq_core(void);
static void __neorv32_xirq_dummy_handler(void);


/**********************************************************************//**
 * Check if external interrupt controller was synthesized.
 *
 * @return 0 if XIRQ was not synthesized, 1 if EXTIRQ is available.
 **************************************************************************/
int neorv32_xirq_available(void) {

  if (NEORV32_SYSINFO->SOC & (1 << SYSINFO_SOC_IO_XIRQ)) {
    return 1;
  }
  else {
    return 0;
  }
}


/**********************************************************************//**
 * Initialize XIRQ controller.
 *
 * @note All interrupt channels will be deactivated, all pending IRQs will be deleted and all
 * handler addresses will be deleted.
 *
 * @return 0 if success, != 0 if error.
 **************************************************************************/
int neorv32_xirq_setup(void) {

  NEORV32_XIRQ->EIE = 0; // disable all input channels
  NEORV32_XIRQ->EIP = 0; // clear all pending IRQs
  NEORV32_XIRQ->ESC = 0; // acknowledge (clear) XIRQ interrupt

  int i;
  for (i=0; i<32; i++) {
    __neorv32_xirq_vector_lut[i] = (uint32_t)(&__neorv32_xirq_dummy_handler);
  }

  // register XIRQ handler in NEORV32 RTE
  return neorv32_rte_handler_install(XIRQ_RTE_ID, __neorv32_xirq_core);
}


/**********************************************************************//**
 * Globally enable XIRQ interrupts (via according FIRQ channel).
 **************************************************************************/
void neorv32_xirq_global_enable(void) {

  // enable XIRQ fast interrupt channel
  neorv32_cpu_csr_set(CSR_MIE, 1 << XIRQ_FIRQ_ENABLE);
}


/**********************************************************************//**
 * Globally disable XIRQ interrupts (via according FIRQ channel).
 **************************************************************************/
void neorv32_xirq_global_disable(void) {

  // enable XIRQ fast interrupt channel
  neorv32_cpu_csr_clr(CSR_MIE, 1 << XIRQ_FIRQ_ENABLE);
}


/**********************************************************************//**
 * Get number of implemented XIRQ channels
 *
 * @return Number of implemented channels (0..32).
 **************************************************************************/
int neorv32_xirq_get_num(void) {

  uint32_t mask;
  int i, cnt;

  if (neorv32_xirq_available()) {

    neorv32_cpu_csr_clr(CSR_MIE, 1 << XIRQ_FIRQ_ENABLE); // make sure XIRQ cannot fire
    NEORV32_XIRQ->EIE = 0xffffffffU; // try to set all enable bits
    mask = NEORV32_XIRQ->EIE; // read back actually set flags

    // count set bits
    cnt = 0;
    for (i=0; i<32; i++) {
      cnt += mask & 1;
      mask >>= 1;
    }
    return cnt;
  }
  else {
    return 0;
  }
}


/**********************************************************************//**
 * Clear pending interrupt.
 *
 * @param[in] channel XIRQ interrupt channel (0..31).
 **************************************************************************/
void neorv32_xirq_clear_pending(int channel) {

  channel &= 0x1f;
  NEORV32_XIRQ->EIP = ~(1 << channel);
}


/**********************************************************************//**
 * Enable IRQ channel.
 *
 * @param[in] channel XIRQ interrupt channel (0..31).
 **************************************************************************/
void neorv32_xirq_channel_enable(int channel) {

  channel &= 0x1f;
  NEORV32_XIRQ->EIE |= 1 << channel;
}


/**********************************************************************//**
 * Disable IRQ channel.
 *
 * @param[in] channel XIRQ interrupt channel (0..31).
 **************************************************************************/
void neorv32_xirq_channel_disable(int channel) {

  channel &= 0x1f;
  NEORV32_XIRQ->EIE &= ~(1 << channel);
}


/**********************************************************************//**
 * Install interrupt handler function for XIRQ channel.
 *
 * @note This will also activate the according XIRQ channel and clear a pending IRQ at this channel.
 *
 * @param[in] channel XIRQ interrupt channel (0..31).
 * @param[in] handler The actual handler function for the specified interrupt (function MUST be of type "void function(void);").
 * @return 0 if success, 1 if error.
 **************************************************************************/
int neorv32_xirq_install(int channel, void (*handler)(void)) {

  // channel valid?
  if (channel < 32) {
    __neorv32_xirq_vector_lut[channel] = (uint32_t)handler; // install handler
    uint32_t mask = 1 << channel;
    NEORV32_XIRQ->EIP = ~mask; // clear if pending
    NEORV32_XIRQ->EIE |= mask; // enable channel
    return 0;
  }
  return 1;
}


/**********************************************************************//**
 * Uninstall interrupt handler function for XIRQ channel.
 *
 * @note This will also deactivate the according XIRQ channel.
 *
 * @param[in] channel XIRQ interrupt channel (0..31).
 * @return 0 if success, 1 if error.
 **************************************************************************/
int neorv32_xirq_uninstall(int channel) {

  // channel valid?
  if (channel < 32) {
    __neorv32_xirq_vector_lut[channel] = (uint32_t)(&__neorv32_xirq_dummy_handler); // override using dummy handler
    uint32_t mask = 1 << channel;
    NEORV32_XIRQ->EIE &= ~mask; // disable channel
    return 0;
  }
  return 1;
}


/**********************************************************************//**
 * This is the actual second-level (F)IRQ handler for the XIRQ. It will
 * call the previously installed handler if an XIRQ fires.
 **************************************************************************/
static void __neorv32_xirq_core(void) {

  neorv32_cpu_csr_write(CSR_MIP, ~(1 << XIRQ_FIRQ_PENDING)); // acknowledge XIRQ FIRQ

  // get highest-priority XIRQ channel
  uint32_t src = NEORV32_XIRQ->ESC;

  // clear the currently pending XIRQ interrupt
  NEORV32_XIRQ->EIP = ~(1 << src);

  // execute handler
  uint32_t xirq_handler = __neorv32_xirq_vector_lut[src];
  void (*handler_pnt)(void);
  handler_pnt = (void*)xirq_handler;
  (*handler_pnt)();

  NEORV32_XIRQ->ESC = 0; // acknowledge the current XIRQ interrupt
}


/**********************************************************************//**
 * XIRQ dummy handler.
 **************************************************************************/
static void __neorv32_xirq_dummy_handler(void) {

  asm volatile ("nop");
}